SU1004559A1 - Attic roof - Google Patents

Description

one

The invention relates to the construction of the attic roofs of multi-storey buildings and can be used in areas with hot climates, as it provides protection from overheating of the upper floor rooms.

A multistory building with a duplex roof is known, including flat roofing slabs, an attic floor and wall panels installed along the perimeter of the building between the roofing slabs and the attic floor 1.

The disadvantages of the known construction are the overheating of the upper floors of buildings during the summer period, the high level of air humidity in the attic and condensation on the inner surfaces of the roofing fencing structures, as a result of which this structure cannot be used in areas with hot climates.

It is also known multi-storey building with a gable roof, including flat roofing plates, attic floor and frieze panels with louvered grille, installed around the perimeter of the roof between the roofing slabs and attic floor 2.

The disadvantages of this solution are the impossibility of implementing cooling ventilation to improve the microclimate of the upper floor rooms due to the insufficient thermal and aerodynamic efficiency of the grid, characterized by the ratio of the parameters of the lattice elements, frieze panels.

The purpose of the invention is to improve the performance of the roof.

The goal is achieved by the fact that in the attic roof, including roofing plates, attic flooring and frieze panels with louvered grill of plates installed along the perimeter of the roof between the roofing panels and attic floor 15, the frieze panels are made in the form of a U-shaped frame, and the height ratio the openings between the plates to their width is 1: 8-1: 9.

FIG. 1 shows the attic roof, cross section; in fig. 2 - view from the facade, fragment; in fig. 3 - plate-blinds.

Building 1 has an attic 2, a flat roof of roofing slabs 3, insulated attic 4, frieze panels 5,

exhaust channels 6. The frieze panels 5 are made in the form of an U-shaped frame with louver plates 7.

Such a constructive solution ensures the continuity of the roof and intensive airing of the attic. The integrity of the roof is ensured by the fact that all exhaust ducts 6 from the apartments are cut off in the attic zone and are not brought to the roof. Intensive airing of the attic creates the necessary operational qualities of the roofs due to the presence of a coolant and the ability to ventilate the attic with outside air during the hot summer period.

Frieze panels 5 of the attic 2 with louver plates 7 make it possible to air through the attic during winds of any direction regardless of the building orientation, which prevents overheating of the upper floor of a multistory building. In this case, the louver plates 7 are arranged so that the attic 2 is from different atmospheric influences (sun, rain, snow). Therefore, the thermal insulation layer of the attic floor does not require waterproofing. The tilt angle of the louver plates 7 in each particular case is determined by a known calculation method depending on the climatic characteristics of the construction area, mainly the latitude of the terrain, and the ratio of the height of the inlets between the louver plates and their width 1 is 1: 8 - 1 : 9, which does not allow sunlight to enter the attic 2 and ensures the minimum consumption of materials for n; 1 louver shutters.

The presented parameters, namely the ratio of the height of the inlet openings between the louvre plates to their width, was 1: 1–1–1: 9, characterized by the heat engineering and aerodynamic efficiency of the louvre grille.

The undoubted technical advantage of these relations is the decreasing air path length between the elements of the louver and the center of this path, which certainly reduces the aerodynamic resistance to the movement of air at the inlet and outlet in the attic. Therefore, the speed of air movement in the attic is almost the same as the wind speed at the entrance to the volume of the attic. Moreover, such geometry of the louvre elements creates additional convective air flows in the volume of the attic due to the uneven heating of them in the solar radiation field, especially during the midday and afternoon hours of the day. It was established experimentally that the ratio of the height of the louver elements to their pyrene should be B within 1: 8-1: 9, which ensures the highest air flow rates in the attic volume and the lowest temperature on the attic floor as a result of maximum convective heat removal from the attic floor. This creates a powerful heat removal from the attic, eliminates overheating of the upper floor through the roof and creates comfortable conditions for people living in these areas in the summer. The ratio of the height of the openings of the louver elements to their width in excess of 1:10 is impractical because of the large consumption of materials for louvre grilles with such ratios of the parameters considered.

Plate-louvers 7 can be made of asbestos-cement flat sheets or from reinforced concrete slabs reinforced with a metal grid, fixed to the supporting posts of the U-shaped frame with a welding head.

The heat loss of the upper floor during the winter period is significantly reduced due to its re-radiation from the roofing slabs 3 back to the attic floor 4, and the presence of dried ventilation with outside air prevents the thermal insulation layer and the inner surface from being dampened.

Due to the continuous airing of the attic 2 with outside air, the pressure of the exhaust air through the exhaust ducts 6 in the exhaust ventilation systems with natural induction increases. This roof structure in multi-storey buildings prevents the roof from completely overheating and placed on the upper floor through the roof, enhancing its performance,

0 economical on the consumption of materials and in operation. The annual moisture balance of these attic envelopes is zero, i.e. the moisture in the attic fences does not accumulate, which significantly

5 extends their life to n degree of durability. Economy of material consumption is 18% compared with the prototype.

Claims (2)

1. USSR author's certificate number 460365, cl. E 04 H 1/02, 1975. 2. Guide for design and installation of precast reinforced concrete roofs with non-roll roofing for residential and public buildings. -SibZNIIEP ,. M., stroiizdat, 1969, p. 6-7 (prototype). j & ig.1; J 7 I / -7 7  five Fi8.2 VuB.d